International Journal of Engineering and Technical Research (IJETR) ISSN: 2321-0869, Volume-1, Issue-10, December 2013
Solar PV Based Zeta Converter with Capacitor Multiplier and Coupled Inductor for DC Drive Application G.Arthiraja, M. Ammal Dhanalakshmi, B.Arunkumaran and M. Sasikumar
Abstract— in this paper performance of DC drive fed by high
range is from 15 V to 40 V with various power capacities of about 100 W to 300 W for a single commercial PV panel.
step-up converter is studied. High step up zeta converter is employed here with solar PV as a source without Extreme duty ratios and the numerous turns-ratios of a coupled inductor , converter achieves a high step-up voltage-conversion ratio and the leakage inductor energy of the coupled inductor is efficiently recycled to the load. These features explain the module’s high efficiency performance. The operating principles and steady-state analyses of continuous and boundary conduction modes, as well as the voltage and current stresses of the active components, are analyzed for a 250W circuit model using MATLAB SIMULINK. Index Terms— Zeta converter, PWM technique, Coupled Inductor, Active Switch.
Fig.2 MPP voltage (Vmp) distribution with various power capacities of PVpanel.
I. INTRODUCTION In recent years photovoltaic (PV) has became attractive as a result PV market would grow up to 30 GW by 2014, due to the following policy-driven scenario [1];One type of renewable energy source is the photovoltaic (PV) cell, which converts sunlight to electrical current, without any form for mechanical or thermal interlink. Fig.1 Shows the block diagram of the proposed converter, that the PV panel (100~300W) is connected to the high step-up DC_DC converter, the input voltage of the converter is 15~40Volt from the PV panel.
Fig.1 General configuration of DC module. PV cells are usually connected together to make PV modules, consisting of 72 PV cells, which generates a DC voltage between 15 Volt to 45 Volt and a typical maximum power of 160 Watt, depending on temperature and solar irradiation. Fig. 2 shows that the maximum power point (MPP) voltage Manuscript received November 29, 2013. G.Arthiraja, PG Scholar, Dept. of Power Electronics and Drives, Jeppiaar engineering College, Chennai, India, 9677969377. B. Arunkumaran, PG Scholar, Dept. of Power Electronics and Drives, Jeppiaar Engineering College, Chennai, India, 9445484322. M. Ammal Dhanalakshm, PG Scholar, Dept. of Power Electronics and Drives, Jeppiaar Engineering College, Chennai, India, 9677282451. M. Sasikumar, Professor & Head, Dept. of Power Electronics and Drives, Jeppiaar Engineering College, Chennai, India, 9094277053.
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The typical Zeta converter will provide either a step-up or a step-down function to the output, similar to that of the buck-boost or SEPIC converter topologies.The conventional Zeta converter has been configured of two inductors, a series capacitor and a diode. Previous research works have developed diverse Zeta converter applications, as follows.A coupled inductor could be employed to reduce power supply dimensions[2]. Some Zeta and fly back combination converters have extend the output range by the use of this coupled-inductor technique[3],[5]. ]. By Employing soft switching technique, zero-voltage switching and zero-current switching, on the Zeta converter; and hanging the input inductor of the ZETA converter[3],[6],[7]; to a coupled inductor have obtained a higher step-up conversion ratio[8],[20]. Many research works on high step-up converter topology included analyses of the switched-inductor and switched-capacitor types[9]–[11],transformerless switched-capacitor type [12], [13],the boost type integrated with the coupled inductor [14], [15], the voltage-lift type and the capacitor-diode voltage multiplier. The equivalent series resistance (ESR) of the capacitor and the parasitic resistances of the inductor are also affecting the overall efficiency. In regard to increasing voltage gain, this attribute is constricted by the voltage stress on the active switch. However, if the leakage inductor energy of the coupled inductor could be recycled, then the voltage stress is reduced on the active switch, that means the coupled-inductor and the voltage-multiplier or voltage-lift techniques are able to accomplish the goal of achieving higher voltage gain [2]–[22].The DC-DC boost converter is used for voltage step-up applications, and in this case this converter will be
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